Shelf-stable pouch for fresh-packed fruits or vegetables

ABSTRACT

An assembly may include a shelf-stable pouch for fruits or vegetables. The assembly may comprise a pouch having a closed condition and an open configuration. The dosed configuration may be configured to seal portions of at least one of the fruits and vegetables and brine prior to heating the pouch for pasteurization. The open condition may allow for the removal and serving of the portions after pasteurization from heating,

CROSS REFERENCE TO RELATED APPLICATIONS

This non-provisional application is based on and claims priority to U.S.Provisional Patent Application No. 62/200,936, filed on Aug. 4, 2015,which is hereby incorporated by reference in its entirety.

BACKROUND

Vegetables or fruits such as cucumbers (sometimes considered a culinaryvegetable), also referred to as gherkins, may be processed to beshelf-stable, so that they may be stored and distributed innon-refrigerated conditions. Traditionally, pickles may be made fromvegetables or fruits such as cucumbers and packaged in glass jars toretain freshness and quality. While the glass jar product represents ataste and texture that is desirable to the consumers, customers maydesire cucumbers that are freshly packed in a portable format, e.g.,using flexible packaging for convenient, on-the-go snacking. Products inflexible packaging, however, may require different processing than thosein glass jars, thereby providing a need for improved methods forproducts in flexible packaging. Furthermore, most pickles are packagedin jars which are not conducive to a single serving portion of a wholeor sectioned pickle. Moreover, traditional pouches do not insulate thepickles from oxygen that may enhance spoilage. Thus, there is a need forfresh-packed vegetables or fruits such as cucumbers, e.g., in a singleserving portion and using a shelf-stable pouch that minimizes spoilage.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates an exemplary assembly of the present disclosure,e.g., including a pouch in a closed configuration and containing a fruitor vegetable illustrated in the form of a cucumber and brine;

FIG. 2 illustrates an exemplary assembly of the present disclosure,e.g., including a pouch in an open configuration, containing brine, andwith at least a portion of the exemplary pickles that result from thepickles being separated from the packaging and the brine;

FIG. 3 illustrates a top view of a pouch of the present disclosure,e.g., in an open configuration;

FIG. 4 illustrates a bottom view of a pouch of the present disclosure;

FIG. 5 illustrates an exemplary die line layout for a pouch of thepresent disclosure;

FIG. 6A illustrates an exemplary material for a pouch of the presentdisclosure, e.g., having a plurality of layers such as three;

FIG. 6B illustrates another exemplary material for a pouch of thepresent disclosure, e.g., having a plurality of layers such as four;

FIG. 7 illustrates an exemplary process of the present disclosure; and

FIG. 8 illustrates an exemplary nitrogen flush of the presentdisclosure.

DETAILED DESCRIPTION

An assembly may include a shelf-stable pouch for fruits or vegetablessuch as fresh cucumbers. The assembly may comprise a pouch having aclosed condition and an open configuration. The closed configuration maybe configured seal fruits or vegetables and brine prior to heating thepouch for pasteurization. Brine is water saturated with or containinglarge amounts of a salt, especially sodium chloride. Afterpasteurization from heating, the open condition may allow for theremoval and serving of portions (e.g., sectioned) of the treated fruitsor vegetables.

Methods for a shelf-stable pouch for fruits or vegetables are alsocontemplated. The method may comprise subdividing at least one of afruit and vegetable into portions such as by cutting or slicing theminto sections, combining at least a subset of the resulting portions anda brine in a pouch, removing oxygen from the pouch, sealing the pouch toform a sealed pouch, heating the sealed pouch for pasteurization, andcooling the sealed pouch after pasteurization from the heating. In theillustration that follows, an exemplary fruit in the form of a cucumberis treated to become a form of a pickle. Of course, other fruits orvegetables may also be used including, but not limited to olives,asparagus, cauliflower and carrots. In fact, mixtures of fruits andvegetables are also possible.

FIGS. 1-4 illustrate an exemplary assembly 100. System 100 may take manydifferent forms and include multiple and/or alternate components and/orimplementations. While an exemplary assembly 100 is shown, the exemplarycomponents illustrated in the figures are not intended to be limiting.Indeed, additional or alternative components and/or implementations maybe used.

As illustrated in FIGS. 1-4, assembly 100 may include a pouch 102, oneor more food portions 104 (e.g., vegetables such cucumbers, fruit, or acombination thereof), a brine 106, an upper portion 108, first andsecond side portions 109, a lower portion 110, a releasable seal 112(e.g., near the upper portion 108), and a recess 114 (e.g., near thelower portion 110). An exemplary pouch 102 may include a cavityconfigured to contain portions 104 and brine 106. Portions 104 may befresh or fresh-packed, e.g., by packaging a fruit or vegetable from aharvest site such as a field without or prior to a lengthy fermentationor storage period. Portions 104 may be processed as a single servingportion of a whole fruit or vegetable or formed into and processed assections, e.g., transverse slices referred to as chips or lengthwiseslices referred to as spears.

Pouch 102 may include a closed configuration and an openedconfiguration. As shown in FIG. 1, the closed configuration may containthe portions 104 and brine 106. Alternatively, the closed configurationmay contain the portion 104 without brine 106. As shown in FIGS. 2 and3, the open configuration may facilitate the packaging or serving ofportions 104, e.g., while the brine 106 remains in the pouch 102 or isdisregarded. The releasable seal 112 may include first and secondinterlocking portions that releasably receive and selectively releaseeach other, e.g., to seal the portion 104 and brine 106 in the pouch 102thereby isolating the portions 104 from outside oxygen that may increasespoilage. As shown in FIG. 4, the recess 114 may be configured as agusset for which the perimeter may provide a stand for the pouch 102 tobe positioned upright, e.g., on a shelf.

FIG. 5 illustrates an exemplary die line layout 500 for the formingpouch 102. Pouch 102 may include a back panel 502, a gusset panel 504,and a front panel 506. The pouch 102 may include seal areas 508 that maybe put in contact with and heat sealed relative to each other, therebyproviding seals along the lower portion 110 and side portions 109.Further, after the portions 104 and brine 106 are loaded into the pouch102 as discussed in further detail below, the seal area 508 near theupper portion 110 may also be heat sealed. The pouch 102 may includefold lines 510, 511, and 512 to facilitate the formation of gusset panel504. The pouch 102 may include first and second interlocking portions ofreleasable seal 112 along the back panel 502 and front panel 506,respectively. The pouch 102 may include notch 516 and eyemark 518 tofacilitate the tear and removal of the seal area 508 portion beyond thenotch 516 to expose releasable seal 112.

FIGS. 6A. and 6B illustrate an exemplary construction of pouch 102. Asshown in FIG. 6A, pouch 102 may include a first layer 620 (e.g., facingand exposed to an environment surrounding pouch 102), an adhesive 622, asecond layer 624, an adhesive 626, and a third layer 628 (e.g., facingand exposed to the portions 104 and brine 106). As shown in FIG. 6B,pouch 102 may additionally include an adhesive 630 and a fourth layer632 (e.g., facing and exposed to the portions 104 and brine 106). Forexample, the first layer 102 may include any oxygen barrier such aspolyethylene (e.g., polyethylene terephthalate (PET)), the second layer624 may include any light or thermal barrier such as metal foil (e.g.,tin or aluminum foil) or metallized film (e.g., metalized polyester film(MetPET)), and the third layer 128 may include any hermetic or airtightbarrier such as polyethylene (e.g., linear low-density polyethylene(LLDPE)) or polypropylene (e.g., cast polypropylene (CPP)). in anotherexample, the first layer 620 may include a first oxygen barrier (PET),the second layer 624 may include any light or thermal barrier (e.g.,metal foil or metallized film), the third layer 628 may include a secondoxygen barrier (e.g., PET), and the fourth layer 632 may include anyhermetic or airtight barrier (e.g., LLDPE or CPP). Adhesives 622, 626,and 630 may include the same type or any combination of adhesives.Alternatively, or in addition, a heat seal may secure any portion orcombination of layers 620, 622, 624, 626, 628, and 632 to each other.

FIG. 7 illustrates an exemplary system 700. System 700 may take manydifferent forms and include multiple and/or alternate components and/orimplementations. While an exemplary system 700 is shown, the exemplarycomponents illustrated in this Figure are not intended to be limiting.Indeed, additional or alternative components and/or implementations maybe used.

As illustrated in FIG. 7, system 700 may include collector 702,receiving and cold storage 704, cold wash 706, slicer 708, blancher 710,bypass 712, scale 714, brine storage 716, scale 718, pouch loader 720,injector 722, heat sealer 724, retort pasteurizer 726, jacketed kettlepasteurizer 728, ice bath 730, loading and packaging 732, and ambientstorage 734.

The collector 702 may grade and sort fruits or vegetable and then thefruits or vegetable may be sent to receiving and cold storage 704. Thefruit or vegetable may be passed through cold wash 706 that may soak orrinse the fruit or vegetable, e.g. at a temperature of at or above 50degrees Fahrenheit (° F.). The slicer 708 may slice the fruit orvegetable into sections 104, e.g., having thickness of about ⅜ to 7/32of an inch.

Next, the portions 104 may be blanched. Blanching may reduce the tastetypically associated with raw or uncooked portions 104 such ascucumbers, e,g., by activating enzymes, The portions 104 may be passedto that blancher 710 that may include a hot bath, e.g., of water at130-140° F. having a predetermined dwell time. After blanching for apredetermined dwell time, the portions 104 may be passed to scale 714,e.g., to be weighed and portioned such as for a single serving portion.Alternatively, the portions 104 may not be blanched and may instead passdirectly to scale 714, as illustrated by bypass 712.

The portions 104 may be combined with brine 106. The brine 106 may bestored in brine storage 716. The brine 106 may include a solution ofsalt in water, e.g., ranging from about 3.5 to 26% salt. The brine 106may pass to scale 718, e.g., to be weighed and portioned such as for asingle serving portion. The portions 104 and brine 106 may be loadedinto a pouch 102 in a single serving portion, e.g., a one-to-one ratioof portions 104 to brine 106 or approximately 50 grams of portions 104and 50 grams of brine 106. Thus, less brine may be utilized than undermore traditional processes.

The portions 104 and brine 106 may be sealed in the pouch 102 to form asealed pouch 102. Referring again to FIG. 1, the pouch 102 may includean upper portion 108 with a selectively sealable closure and a lowerportion 110 with a gusset 114 to allow the sealed pouch 102 to befreestanding, e.g., on a shelf. The pouch 102 may also include anymaterial configured to isolate the portions 104 and brine 106 fromoxygen, e.g., to preserve the portions 104 in a shelf-stable condition.

Oxygen may be removed from the pouch 102. For example, the injector 722may be positioned in the upper portion of the pouch 102 and may nitrogenflush the oxygen from the portions 104 and brine 106, e.g., by injectingan inert gas such as a gas comprising nitrogen into the pouch 102,thereby forcing the oxygen away from the portions 104 and brine 106 andout of the pouch 102. Inert gases help avoid inadvertent oxidation andthe like resulting from the presence of oxygen. The heat sealer 724 mayresistively heat or ultrasonically weld the upper portion of the pouch102 to seal the portions 104 and brine 106 in the pouch 102, therebyisolating the portions 104 from oxygen.

The sealed pouch 102 may be pasteurized to cure the portions 104 in thebrine 106 and make the sealed pouch 102 self-stable undernon-refrigerated conditions, e.g., by destroying certain microorganismsthat may cause spoilage or undesirable fermentation. The sealed pouch102 may be pasteurized by exposing the sealed pouch 102 to an elevatedtemperature for a predetermined pasteurization period according to adesired pasteurization value, e.g., in a range of 0 to 200, 15 to 50, 30to 75, or 50 to 100. The sealed pouch 102 may be pasteurized with apasteurizer such as the retort pasteurizer 726 or the jacketed kettlepasteurizer 728. The retort pasteurizer 726 may include a chamber thatpressurizes and sprays steam at the sealed pouch 102, thereby elevatingthe temperature of the sealed pouch 102. The jacketed kettle pasteurizer728 that allows the sealed pouches 102 to float in hot liquid, e.g.,water. After the predetermined pasteurization period, the sealed pouch102 is placed in a cold bath, e.g., of ice and water at approximately40-50° F., to cool the sealed pouch 102. The sealed pouch 102 is sent tolabeling and packaging 732 along with other sealed pouches 102 and thento ambient storage 734 at room temperature of approximately 70-76° F.

FIG. 8 illustrates a system 800 for removing oxygen from the pouch 102.The system 800 may include the injector 722. The injector 722 mayinclude a tube or wand with a passage along its length and that isconnected with a nitrogen supply configured to pass or inject nitrogenthrough the passage. Alternatively or in addition, injector 722 may beconfigured to provide suction to remove the air containing oxygen frominside the pouch 102. With the portions 104 and brine 106 in the pouch102 while in an open configuration, the injector 722 may be positionedin the pouch 102, e.g., with a leading end of the injector 722positioned above (as shown) or in the brine 106. The injector 722 maythen inject the nitrogen into the package 102. The injected nitrogen maydisplace and push all or at least a portion of the oxygen out of thepouch 102, thereby isolating the portions 104 and brine 106 from oxygen.A desirable oxygen percentage in the pouch 102 after nitrogen flushingmay be below about 0.25-1% oxygen, although alterative oxygenpercentages may be utilized. Thus, the pouch 102 may be nitrogen flushedto minimize spoilage of the vegetables 104 from oxygen.

With regard to the processes, systems, methods, etc. described herein,it should be understood that, although the steps of such processes, etc.have been described as occurring according to a certain orderedsequence, such processes could be practiced with the described stepsperformed in an order other than the order described herein. It furthershould be understood that certain steps could be performedsimultaneously, that other steps could be added, or that certain stepsdescribed herein could be omitted. In other words, the descriptions ofprocesses herein are provided for the purpose of illustrating certainembodiments, and should in no way be construed so as to limit theclaims.

Accordingly, it is to be understood that the above description isintended to be illustrative and not restrictive. Many embodiments andapplications other than the examples provided would be apparent uponreading the above description. The scope should be determined, not withreference to the above description, but should instead be determinedwith reference to the appended claims, along with the full scope ofequivalents to which such claims are entitled. It is anticipated andintended that future developments will occur in the technologiesdiscussed herein, and that the disclosed systems and methods will beincorporated into such future embodiments. In sum, it should beunderstood that the application is capable of modification andvariation.

All terms used in the claims are intended to be given their broadestreasonable constructions and their ordinary meanings as understood bythose knowledgeable in the technologies described herein unless anexplicit indication to the contrary in made herein. In particular, useof the singular articles such as “a,” “the,” “said,” etc. should be readto recite one or more of the indicated elements unless a claim recitesan explicit limitation to the contrary.

The Abstract of the Disclosure is provided to allow the reader toquickly ascertain the nature of the technical disclosure. It issubmitted with the understanding that it will not be used to interpretor limit the scope or meaning of the claims. In addition, in theforegoing Detailed Description, it can be seen that various features aregrouped together in various embodiments for the purpose of streamliningthe disclosure. This method of disclosure is not to be interpreted asreflecting an intention that the claimed embodiments require morefeatures than are expressly recited in each claim. Rather, as thefollowing claims reflect, inventive subject matter lies in less than allfeatures of a single disclosed embodiment. Thus the following claims arehereby incorporated into the Detailed Description, with each claimstanding on its own as a separately claimed subject matter.

1.-20. (canceled)
 21. A shelf-stable pouch assembly comprising: aplurality of cucumber portions; and a pouch having a closedconfiguration and an open configuration, the pouch including a topportion having a releasable seal to transition the pouch between theclosed configuration and the open configuration, a bottom portion havinga gusset with a perimeter configured to support the pouch on a surfacein an upright position with the top portion above the bottom portion,and a first side portion and a second side portion each extendingbetween the top portion and the bottom portion to form a cavity, whereinthe plurality of cucumber portions is contained within the cavity whenthe pouch is in the closed configuration prior to heating the pouch forpasteurization, and wherein the open configuration allows the removal ofthe plurality of cucumber portions from the pouch followingpasteurization.
 22. The assembly of claim 21, further including a brinewithin the cavity of the pouch.
 23. The assembly of claim 22, whereinthe pouch is configured to receive the plurality of cucumber portions ina fresh state at a first time when the pouch is in the openconfiguration prior to pasteurization, and wherein at least a portion ofthe plurality of cucumber portions transition to a pickled state at asecond time when the pouch is in the closed configuration upon exposureto the brine within the cavity.
 24. The assembly of claim 21, whereinthe first side portion and the second side portion each includeheat-sealed panels.
 25. The assembly of claim 21, wherein at least oneof the top portion, the bottom portion, the first side portion, or thesecond side portion is formed from a panel having a first layer, asecond layer, and a third layer interposed between the first layer andthe second layer, wherein the third layer includes a metal foil or ametallized film.
 26. The assembly of claim 25, wherein the panelincludes adhesive between the first layer and the third layer.
 27. Theassembly of claim 26, wherein the panel includes adhesive between thethird layer and the second layer.
 28. The assembly of claim 25, whereinthe panel includes a heat seal securing the first layer with the thirdlayer.
 29. The assembly of claim 25, wherein the panel includes a fourthlayer secured to the second layer, and wherein the second layer isinterposed between the fourth layer and the third layer.
 30. Theassembly of claim 21, wherein the top portion is configured to receivean injector at a position above or in the brine when the pouch is in theopen configuration to introduce the injector into the cavity to pass aninert gas into the cavity to remove oxygen from the pouch.
 31. Theassembly of claim 30, wherein the pouch is configured to receive theinjector into at least a portion of the pouch at the position above orin the brine while the plurality of cucumber portions and the brine arein the pouch.
 32. The assembly of claim 21, wherein the plurality ofcucumber portions are sectioned from a whole cucumber.
 33. Ashelf-stable pouch assembly comprising: a plurality of fresh cucumberportions; a brine; and a pouch having a closed configuration and an openconfiguration, the pouch including a top portion having a releasableseal to transition the pouch between the closed configuration and theopen configuration, a bottom portion having a gusset with a perimeterconfigured to support the pouch on a surface in an upright position withthe top portion above the bottom portion, and a first side portion and asecond side portion each extending between the top portion and thebottom portion to form a cavity, wherein the plurality of cucumberportions and the brine are contained within the cavity when the pouch isin the closed configuration prior to heating the pouch forpasteurization, wherein the open configuration allows the removal of theplurality of cucumber portions from the pouch following pasteurization,wherein the pouch is configured to receive the plurality of freshcucumber portions at a first time when the pouch is in the openconfiguration prior to pasteurization, and wherein at least a portion ofthe plurality of fresh cucumber portions transition to a pickled stateat a second time when the pouch is in the closed configuration uponexposure to the brine within the cavity.
 34. The assembly of claim 33,wherein the first side portion and the second side portion each includeheat-sealed panels.
 35. The assembly of claim 33, wherein at least oneof the top portion, the bottom portion, the first side portion, or thesecond side portion is formed from a panel having a first layer, asecond layer, and a third layer interposed between the first layer andthe second layer, wherein the third layer includes a metal foil or ametallized film.
 36. The assembly of claim 35, wherein the panelincludes an adhesive between the first layer and the third layer. 37.The assembly of claim 36, wherein the panel includes adhesive betweenthe third layer and the second layer.
 38. The assembly of claim 35,wherein the panel includes a fourth layer secured to the second layer,and wherein the second layer is interposed between the fourth layer andthe third layer.
 39. The assembly of claim 33, wherein the top portionis configured to receive an injector at a position above or in the brinewhen the pouch is in the open configuration to introduce the injectorinto the cavity to pass an inert gas into the cavity to remove oxygenfrom the pouch.
 40. The assembly of claim 33, wherein the plurality offresh cucumber portions are sectioned from a whole fresh cucumber.